In mold lamination of decorative products

ABSTRACT

A method of manufacturing decorative plastic composites having a decorative layer, a backing layer and a clear outer layer which provides exceptional “depth of image” is disclosed. Decorative or protective appliqués&#39; having a wide range of decorative patterns may be formed by injection molding a backing layer behind and a clear outer layer on the top surface of a relatively thin foil, film, fabric, veneer or sheet of paper.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation-in-part of U.S. application Ser. No. 11/428,107 filed Jun. 30, 2006, which is a continuation of International Application No. PCT/US2005/000170 filed Jan. 3, 2005 and published Aug. 4, 2005 as International Publication No. WO 2005/070647, designating the United States, and which claims benefit of U.S. Provisional Application No. 60/533,632 filed Dec. 31, 2003.

FIELD OF THE INVENTION

This invention relates to plastic composites formed by injection molding, particularly to plastic composites which find use as decorative appliqués for motor vehicle trim, and more particularly, to decorative appliqués having a wide variety of decorative patterns which may exhibit exceptional “depth of image” provided by a layer of relatively clear plastic forming the outer surface.

BACKGROUND OF THE INVENTION

Transportation vehicles, particularly automobiles, are marketed and sold on the basis of differentiation over other competitive models. Differentiation may be by style or color, and may often be accomplished by using trim panels or appliqués on the interior or exterior of the vehicle which denote different levels of luxury, price or value. These appliqués or panels may also form protective coverings for areas that protrude from adjacent surfaces. These panels may be generally color-coordinated with the adjacent surfaces of the vehicle but may also be bright, reflective, wood grained, marbleized or metallized in appearance.

Originally, real wood appliqués and finished metal panels were used, however, their popularity suffered due to their high cost and limited durability. Subsequently, wood veneers and films with vacuum-deposited metal layers found favor, however, these solutions did not produce the look of luxury or the extended durability required in today's market.

Various proposals have been suggested and practiced for the manufacture of plastic composites for use as automotive interior trim and exterior trim panels or appliqués. One approach has been to form a metal or plastic substrate and apply multiple coatings thereon to produce a high gloss Class A-surfaced part. The substrates may be formed from steel, or any one of a wide range of known plastic materials such as ABS, PP, ABS/PC blends, PU, TPO, PET, PBT or other equivalent high strength plastic materials suitable for injection molding into a product shape. The coatings for such substrates may be selected from known coatings such a primer coat, an adhesion promoter, a base coat and a clear coat, and in the case of metals, an electrodeposition coat. Examples of such coatings are set forth in U.S. Pat. Nos. 4,681,811 and 5,320,869. The solvents used in such systems may cause undesirable environmental and emission problems.

Another approach is to form a paint film and inject polymeric material behind the paint film to produce a part with a desired colormatch on its exposed Class A surface. Examples of known paint film and injection molded plastic parts are disclosed in U.S. Pat. Nos. 5,432,666 and 5,009,821. Such systems may require the separate manufacture and handling of the film. Furthermore, the outer surface being a paint film may not exhibit an exceptional depth of image and may be readily scratched or abraded.

Still another approach to providing a colored plastic part is to provide an enamel coating that will reduce emissions while producing a crater resistant surface on the part being coated. One such system is set forth in U.S. Pat. No. 4,396,680. Such systems may require the use of expensive conventional coating systems and baking ovens to form a finish on the substrate that has the desired appearance.

Yet another approach is to provide laminating equipment in which a color layer is formed by extrusion and then connected to a substrate. U.S. Pat. No. 4,349,592 discloses the use of such a technique in the manufacture of a decorative molding exterior trim part.

Various other proposals have been suggested to produce decorative trim parts and appliqués which have unique decorative patterns, high distinctness of image (DOI) and exceptional “depth of image” which give the impression of luxury and high value. “Depth of image” is herein defined as the emphasis of a decorative pattern by a preferably clear resin layer overlying it, which provides the appearance that the pattern lies deep beneath the top surface of the clear outer layer. This is derived from wood finishing where multiple layers of wax or coatings are applied and buffed out to provide a grain pattern that appears to lie well below the top surface or has depth.

For instance, U.S. Pat. No. 5,338,592 is directed at laminating a series of wood veneers to form an overlay sheet, finishing, cutting and drying the overlay to form a shape, molding a transparent resin layer onto the front surface of the wooden shape and molding a synthetic resin core material onto the rear surface of a wooden shape. However, the effort of forming the wooden veneer overlay to the desired shape is both time consuming and costly.

Similarly, U.S. Pat. No. 5,525,179 is directed at manufacturing a lining part comprising a blank having a preformed shape and a cutout with an edge, injection molding a first plastic material to form a back surface, followed by injection molding a second plastic material to form a front surface coating which also coats the edges of the part. Again, a preformed shape is disclosed.

As disclosed in the '179 reference, German Published Application 41 24 297 describes a similar process using a preshaped blank and employing polymethyl-methacrylate (PMMA) as the outer layer. However, this reference does not disclose the use of a plastic backing layer.

U.S. Pat. No. 6,444,317 is directed at preparing a laminate film including a polyolefin film layer and a primer layer and injection molding a polyolefin resin onto the polyolefin film layer to form an outer layer.

Regarding decorative wood articles, U.S. Pat. No. 6,444,319 assigned to Erwin Behr, GmbH & Co. is directed at surface coating of an interior fitting for vehicles with a lacquer or resin layer wherein a wood veneer component is inserted into a mold and spaced from the cavity so that a liquid surface coating material having at least two mixed components may be introduced into the space between the mold and wood veneer component. United States Patent Application Publications Nos. 2003/0044598 and 2003/0162045, also to Behr, disclose the use of a liquid coating material curable by UV radiation, and the application of a coating material based on vegetable-oil-modified resin and natural vegetable oils, with the addition to the coating material of ceramic micro-particles, respectively.

Finally, United States Patent Application Publication No. 2002/0007898 is directed at a method of making a molded wood part having a wood grain pattern wherein a wood fiber substrate is formed, coated with a water impermeable substrate and a pattern transferred to the substrate using a hydrographic process. A protective top coat may be applied over the pattern. One example of a hydrographic process is disclosed in U.S. Pat. No. 4,010,057 wherein a thin film on which a pattern is printed is floated on the surface of a liquid and the pattern is transferred onto the surface of the object by submerging the surface of the object in the liquid.

While the various methods are suitable for their intended purpose, they all involve processing considerations that either produce emissions, require heavy capital investment in facilities or require unnecessary handling of one or more layers of material in the manufacture of a decorative exterior or interior trim product and do not produce an exceptional depth of image of the decorative layer.

Thus, there is a continuing need in this field of art for an article and its method of manufacture that will obviate the above problems.

SUMMARY OF THE INVENTION

In a first aspect, the present disclosure is directed at a method for manufacturing an appliqué or trim panel having a decorative layer, a backing layer and an outer layer, comprising the steps of providing a mold core and a mold cover which cooperate to form a cavity space wherein the core and cover are aligned along one or more shearing edges, providing a sheet of paper and forming the sheet to the shape of at least a portion of the cavity space, the sheet of paper having a front side and a back side and including an image printed on said top surface, placing the formed sheet of paper in the cavity space and aligning the mold core and the mold cover to form a first injection volume. This may be followed by injecting a first polymer against the backside of the formed sheet of paper to substantially conform the formed sheet of paper against the cover side of the first injection volume thereby forming a decorative paper composite comprising a backing layer at least partially formed behind the formed sheet of paper and solidifying the backing layer. This may be followed by retracting the core and the decorative paper composite from the mold cover along the one or more shear edges by an amount related to the thickness of the outer layer thereby forming a second injection volume, injecting a second polymer into the second injection volume against the front side of the decorative paper composite to form an outer layer, and solidifying the second polymer to form the molded appliqué or trim panel, wherein the second polymer is a clear plastic and wherein the sheet of paper has a basis weight in the range of 13-200 lbs. and/or a thickness in the range of 0.003-0.0225 inches and includes a printed image on the top surface.

In another aspect, the present disclosure is directed at a method for manufacturing an appliqué or trim panel having a decorative layer, a backing layer and an outer layer, comprising the steps of providing a mold core and a mold cover which cooperate to form a cavity space wherein the core and cover are aligned along one or more shearing edges, providing a sheet of paper and forming the sheet to the shape of at least a portion of said cavity space, the sheet of paper having a front side and a back side and including an image printed on the top surface and placing the formed sheet in the cavity space. This may be followed by aligning the mold core and the mold cover to form a first injection volume, injecting a first polymer against the front side of the formed sheet of paper to substantially conform the formed sheet of paper against the core side of the first injection volume, thereby forming a decorative paper composite comprising an outer layer overlying the formed sheet of paper, and solidifying the outer layer. This may be followed by retracting the core along the one or more shear edges from the mold cover and the decorative composite by an amount equal to the thickness of the backing layer, thereby forming a second injection volume, injecting a second polymer into the second injection volume against the backside of the decorative paper composite layer to form a backing layer, and solidifying the second polymer to form a molded appliqué or trim panel, wherein the first polymer is a clear plastic and wherein the sheet of paper has a basis weight in the range of 13-200 lbs. and/or a thickness in the range of 0.003-0.0225 inches.

In still another aspect, the present disclosure is directed at a method for manufacturing an appliqué having a decorative layer, a backing layer and an outer layer, comprising the steps of providing a mold core and mold cover which cooperate to form a cavity space, providing a sheet of paper and forming the sheet to the shape of at least a portion of the cavity space, the sheet of paper having a front side and a back side and including an image printed on the top surface and placing the formed sheet of paper in the cavity space. This may be followed by aligning the mold core and the mold cover to form a first injection volume, injecting a first polymer against the back side of the decorative layer to substantially conform the formed sheet of paper against the cover side of the first injection volume thereby forming a decorative paper composite comprising a backing layer at least partially formed behind the formed sheet of paper and solidifying said backing layer. This may be followed by retracting the core from the cover and removing the decorative paper composite, providing a second mold core and second mold cover which cooperate to form a second cavity space, and placing the decorative paper composite upon said second mold core. This may be followed by aligning the second mold cover and second mold core including the decorative paper composite to form a second injection volume, injecting a second polymer into the second injection volume against the front side of the decorative paper composite to form an outer layer, and solidifying the second polymer to form a molded appliqué or trim panel, wherein the second polymer is a clear plastic and wherein the sheet of paper has a basis weight in the range of 13-200 lbs. and/or a thickness in the range of 0.003-0.0225 inches.

In still another aspect, the present disclosure relates to a method for manufacturing a multi-layer composite product of injection molded plastic by providing a moveable mold part comprising at least a first mold core; providing a stationary mold part comprising at least a first mold cover including a first cavity and a second mold cover including a second mold cavity, the second cavity of greater volume than the first cavity and providing a sheet of paper and forming the sheet to the shape of at least a portion of the first cavity, the sheet of paper having a front side and a back side and including an image printed on said top surface. This may be followed by placing the formed sheet of paper into the first cavity and aligning the first mold cover with the first mold core to form a first injection volume, injecting a first polymeric material into the first injection volume behind the formed sheet of paper and solidifying the first polymeric material to form a decorative paper composite. This may be followed by sequentially moving the first mold core including the decorative paper composite with respect to the stationary mold part to selectively align the first mold core including the decorative paper composite with the second mold cover, the second mold cover and the first mold core including the decorative paper composite, forming a second injection volume. This may be followed by injecting a second polymeric material into the second injection volume formed between the decorative paper composite and the second mold cover to form an outer layer, wherein at least one of the first polymeric material and the second polymeric material comprise a clear plastic and solidifying the second polymeric material to form a composite product, wherein the sheet of paper has a basis weight in the range of 13-200 lbs. and/or a thickness in the range of 0.003-0.0225 inches.

In a still further aspect, the present disclosure relates to a method for manufacturing a multi-layer composite product of injection molded plastic by providing a moveable mold part comprising at least a first mold cover including a first cavity, providing a stationary mold part comprising at least a first mold core including a first projecting profile and a second mold core including a second projecting profile, the second profile smaller than the first profile and providing a sheet of paper and forming the sheet to the shape of at least a portion of the first mold core, the sheet of paper having a front side and a back side and including an image printed on said top surface. This may be followed by placing the formed sheet of paper into the first cavity and aligning the first mold cover with the first mold core to form a first injection volume, injecting a first polymeric material into the first injection volume between the formed sheet of paper and the first mold cover and solidifying the first polymeric material to form a decorative paper composite. This may be followed by sequentially moving the first mold cover including the decorative paper composite with respect to the stationary mold part to selectively align the first mold cover including the decorative paper composite with the second mold core, the second mold core and the first mold cover including the decorative paper composite forming a second injection volume, injecting a second polymeric material into the second injection volume formed between the decorative composite and the second mold core to form a backing layer, wherein at least one of the first polymeric material and the second polymeric material comprise a clear plastic; and solidifying the second polymeric material to form a composite product, wherein the sheet of paper has a basis weight in the range of 13-200 lbs. and/or a thickness in the range of 0.003-0.0225 inches.

In a still further aspect, the present disclosure relates to a method for manufacturing an appliqué or trim panel having a decorative layer, a backing layer and an outer layer, comprising the steps of providing a mold core and mold cover which cooperate to form a cavity space, providing a sheet of paper and forming the sheet to the shape of at least a portion of the cavity space, the sheet of paper having a front side and a back side and including an image printed on said top surface and placing the formed sheet of paper in the cavity space. This may be followed by aligning the mold core and the mold cover to form a first injection volume, injecting a first polymer against the front side of the formed sheet of paper to substantially conform the formed sheet of paper against the core side of the first injection volume thereby forming a decorative paper composite comprising an outer layer at least partially formed in front of the decorative layer and solidifying said outer layer. This may be followed by retracting the core from said cover and removing the decorative paper composite, providing a second mold core and second mold cover which cooperate to form a second cavity space, and placing the decorative paper composite upon the second mold cover. This may be followed by aligning the second mold cover and second mold core including the decorative paper composite to form a second injection volume, injecting a second polymer into the second injection volume against the back side of the decorative paper composite to form the backing layer, and solidifying the second polymer to form a molded appliqué or trim panel, wherein the first polymer comprises a clear plastic and wherein the sheet of paper has a basis weight in the range of 13-2001 lbs. and/or a thickness in the range of 0.003-0.0225 inches.

In a still further aspect, the present disclosure relates to a method for manufacturing an appliqué or trim panel having a decorative layer, a backing layer and an outer layer, comprising the steps of providing a mold core and a mold cover which cooperate to form a cavity space wherein the core and cover are aligned along one or more shearing edges, providing a sheet of paper and forming the sheet to the shape of at least a portion of the cavity space, the sheet of paper having a front side and a back side and including an image printed on the top surface and placing the formed sheet of paper against the mold cover overlying at least a portion of the cavity space. This may be followed by aligning the mold core and the mold cover to form an injection volume, injecting a first polymer against the backside of the formed sheet of paper and injecting a second polymer against the front side of the formed sheet of paper, and solidifying the first and the second polymers to form a molded appliqué or trim panel, wherein the second polymer comprises a clear plastic and wherein the sheet of paper has a basis weight in the range of 13-2001 lbs. and/or a thickness in the range of 0.003-0.0225 inches.

In a still further aspect, the present disclosure relates to a method for the in-line production of an appliqué or trim component having a decorative layer, a molded backing layer and a molded outer layer, comprising the steps of providing an inkjet printer adjacent to a plastic molding press, providing a sheet of paper having a front side and a back side to the printer, wherein the sheet of paper has a basis weight in the range of 13-2001 lbs. and/or a thickness in the range of 0.003-0.0225 inches and advancing the sheet through the printer whereby droplets of ink are deposited from one or more printheads in the printer onto the front surface of the sheet, the droplets deposited in such a pattern so as to create a printed image. This may be followed by drying said ink droplets, expelling the sheet from the printer and trimming the sheet to shape. This may be followed by providing a mold core and a mold cover which cooperate to form a cavity space wherein the core and cover are aligned along one or more shearing edges, directly forming the sheet to the shape of at least a portion of the cavity space, the sheet of paper including an image printed on the top surface and placing the formed sheet of paper in the cavity space. This may be followed by aligning the mold core and the mold cover to form a first injection volume, injecting a first polymer against the backside of the formed sheet of paper to substantially conform the formed sheet of paper against the cover side of the first injection volume thereby forming a decorative paper composite comprising a backing layer at least partially formed behind the formed sheet of paper and solidifying said backing layer. This may be followed by retracting the core and the decorative paper composite from the mold cover along the one or more shear edges by an amount related to the thickness of the outer layer thereby forming a second injection volume, injecting a second polymer into the second injection volume against the front side of the decorative paper composite to form an outer layer, and solidifying the second polymer to form the molded appliqué or trim panel.

In still another aspect, the present disclosure relates to an appliqué' or trim panel for decorating or protecting a surface, comprising a decorative paper layer including a top surface and a back surface and including a printed image printed on the top surface, an injection molded plastic backing layer on the back surface and an injection molded plastic outer layer on the top surface, wherein the outer layer comprises a clear plastic and wherein the paper layer has a basis weight in the range of 13-2001 lbs. and/or a thickness in the range of 0.003-0.0225 inches and includes a printed image on the top surface.

Other advantages of the present invention will become readily apparent to those skilled in the art from the following detailed description, wherein it is shown and described preferred embodiments of the invention. As will be realized the invention is capable of other and different embodiments, and its several details are capable of modification in various respects, without departing from the invention. Accordingly, the description is to be regarded as illustrative in nature and not as restrictive.

BRIEF DESCRIPTION OF THE DRAWINGS

The features, operation and advantages of the invention may be better understood from the following detailed description of the preferred embodiments taken in conjunction with the attached drawings, in which

FIG. 1 is a perspective view of an automobile instrument panel including an appliqué of the present invention.

FIG. 2 is a perspective view of an automobile door panel including an appliqué of the present invention

FIG. 3 is an enlarged cross-sectional view of an appliqué or trim panel of the present invention.

FIG. 4 is a simplified cross-sectional view of an apparatus to form the decorative base layer of one embodiment of the present invention.

FIG. 5 is a simplified cross-sectional view of an apparatus to form the composite appliqué of one embodiment of the present invention.

FIG. 6 is a block diagram reciting the steps of a preferred molding process.

FIG. 7 is a block diagram reciting an alternative molding process.

FIG. 8 is a block diagram reciting still another alternate molding process.

FIG. 9 is a block diagram reciting a process for forming a paper decorative layer to shape, prior to molding such into a trim component.

FIG. 10 is a block diagram reciting a process for the in-line continuous production of a molding process for forming an appliqué or trim panel having integrated therein an inkjet printing process for the decorative paper layer.

DETAILED DESCRIPTION

Decorative panels in the form of appliqués and bezels are found in many markets; automotive, appliance, marine, furniture, etc. Some of these panels also function as protective trim strips along the sides of boats and cars to prevent minor bumping damage. These panels may take on any appearance to differentiate the product which they are installed upon. Protective trim appliqués are often bright, reflective metal-appearing laminates or extrusions with a plastic outer layer. Popular inside the vehicle are “real wood” appliqués that use a preformed wood laminate which is coated with a clear plastic layer. A key to these wood-appearing products is the relatively thick outer coating which yields a luxurious, expensive-appearing image. The present invention provides a molding process for producing thin appliqués having exceptional decorative appearance and depth. An appliqué of this type is shown at 10 in FIG. 1. FIG. 1 is a perspective view of the driver's side of an automobile cockpit with the main instrument panel 20 shown beneath a windshield 24. Beneath the instrument panel, typically, there is a hidden airbag deployment system 26 whose presence is not evident on the top surface. Decorating the surface of the instrument panel 20, are three coordinated appliqués 10, 12 and 14 which may include a wood grain pattern 16 that flows smoothly from panel to panel. Often this wood appearance flows completely across the instrument panel and along the door panels, along each side of the vehicle. By providing an appliqué with the appearance of lightly buffed expensive wood, the interior appearance of the vehicle is enhanced and differentiated.

A second decorative appliqué is shown in FIG. 2 where a door panel 30 which includes a grab handle 34 and armrest 36 further includes a decorative appliqué 32, in this case having the appearance of a coarsely woven burlap type fabric, appearing to be deeply encased in a clear plastic layer. Other applications for the method and construction of the present invention are equally suitable as protective or decorative strips or panels on the outside of other vehicles, appliances, etc. and may include printed graphics on a paper substrate as the decorative layer.

The construction of the appliqué or trim panel of the present invention is shown in simplified cross-sectional view in FIG. 3. The layers as shown are exaggerated in thickness for clarity of the discussion. The relative dimensions of the layers may not be as depicted. Here, an appliqué 10 comprises a decorative layer 1 having a front side and a back side, which may include, but is not limited to, a foil, film, fabric, veneer, coating, thin laminate or paper which is covered with a layer 3 of a first plastic on its back side and has a top layer 5 overlying its front side. The top layer 5 is preferably injection molded of a clear plastic at a thickness to provide the desired depth of image and to protect the thin decorative layer 1. The backing layer 3 is also injection molded and may be of nearly any plastic material and may be tinted, pigmented or otherwise decorated to enhance the appearance of the decorative layer 1, if so desired. Likewise, the top layer 5 may be tinted, pigmented or otherwise decorated to yield a specific appearance as desired. As noted above, typical decorative materials include, but, are not limited to, cloth or fabrics, metallized or painted films, wood grain veneers, laminates formed by hydrographic or metal deposition processes and paper.

A key to the present invention is an uncomplicated process for forming thin appliqués or trim panels. In a preferred embodiment as shown in FIG. 4, a decorative layer 1 is positioned between mold halves. When mold core 2 is aligned with the mold cover 4 there is a resulting cavity space formed for a first plastic 3 to be injection molded behind the decorative layer 1. This causes the decorative layer 1 to conform to the shape of the mold cover 4 and for the first plastic to fill out the space between the core 2 and cover 4. The core 2 and cover 4 are aligned by a shear edge 6 which extends around the projected core 2 and closely interfaces with the cover 4. In a preferred embodiment the shear edge 6 is lengthened so that an additional top layer 5 may be injected (see FIG. 5) by withdrawing the core 2 out of the cover 4 by an amount, a. The decorative layer 1 in FIG. 4 may be cut to conform to the dimensions of the space between the core 2 and cover 4 or may extend across the land area of the cover 4 and be held in place, or even cut off by the core 2 along the shear edge 6 when the core 2 and cover 4 are aligned.

Turning to FIG. 5, it is shown that the core 2 of FIG. 4 has been retracted out of the cover 4 portion of the mold set by an amount, a, which is preferably substantially equal to the thickness of the top layer 5 of the appliqué 10. This allows the preferably clear outer layer 5 to be injected over the decorative composite formed by the decorative layer 1 and backing layer 3. The preferably clear outer layer 5 may comprise any of the clear, preferably light stable, plastics available in the art, including but not limited to, polycarbonate, polymethyl-methacrylate, thermoplastic urethane, polyester, copolyester alloys, cyclic olefin copolymer, poly-4-methyl-1-pentene, polysulphone, allyl diglycol carbonate, allyl ester, styrene-acrylonitrile, polystyrene and polyvinyl chloride.

Preferably, the clear plastic outer layer 5 comprises a copolymer and more particularly a cyclic olefin copolymer, such as TOPAS® 6015S-04 from Ticona, or a co-polyester alloy, such as OPTIMUM® 800 Grade from Engineered Plastics Corporation. The appliqué 10 as formed by the method of the present invention may be of any thickness suitable for the application for which the appliqué is intended, typically from about 1.0 mm. to about 5.0 mm. with a clear outer layer 5 typically of about 0.5 mm. to about 1.0 mm. in thickness, depending on the molding properties of the clear resin used for the outer layer 5.

Unique to the specific construction and method of the present invention is the ability to mold the appliqué 10 in a single mold set (core 2, cover 4) without having to exchange mold halves to accommodate the outer layer 5. Also unique is the ability to produce very thin appliqués, of about 1 mm. in thickness by a single injection mold set.

The process of a preferred embodiment of the present invention preferably comprises (see FIG. 6) the steps of providing a mold core and cover, which cooperate to form a cavity space, in an injection molding machine (Block 200); positioning a, relatively thin, decorative layer 1 across the mold cover 4 which includes a contoured surface (Block 202); aligning the mold core 2, having a contoured surface which mates with, but is spaced from, the contoured surface of the mold cover, with the mold cover 4 to form a first injection volume (Block 204); injecting a first plastic as a backing layer 3 on to the back side of the decorative layer 1 and into the injection volume to conform the decorative layer 1 to the cover portion and form a decorative composite (Block 206); solidifying the first plastic material and retracting the core 2 along with the composite formed by the decorative layer 1 and first plastic 3 (Block 208) along lengthened shear edges which allow the tooling to remain substantially sealed; injecting a second plastic onto the front surface of the decorative layer 1 to form a preferably clear top layer 5 (Block 210); solidifying the second plastic layer 5 and demolding and trimming the appliqué (Block 212). The invention may also be accomplished by injecting the clear layer on the front side of the decorative layer first (at Block 206), retracting the mold core away from the decorative composite, and injecting the backing layer (at Block 210). Further, it is contemplated that an appliqué' may be similarly formed by co-injecting the two plastic materials on to both the front and back sides of the decorative at substantially the same time and allowing the injection pressure to open the mold halves to form the finished appliqué, or optionally to fill the cavity space between the mold halves without moving the mold halves.

Appliqués and trim panels, according to the present invention, may also preferably include fastening means for attachment to other surfaces, including but not limited to, hook and loop, molded bosses which interact with Palnuts, molded Xmas tree projections, and sections which snap-fit into adjacent or mounting surfaces. Alternately, the fastening features may include dielocks, undercuts and various other female features known in the art.

An alternate method of forming the appliqué of the present invention involves a 2 stage process as described in FIG. 7. Here, a first mold core 2 having a contoured projecting portion and a first mold cover 4 having a similarly contoured, preferably recessed, portion spaced from the core are aligned to form an injection volume for forming a decorative composite layer (Block 300). A relatively thin decorative layer 1 is positioned between the contoured portions of the mold cover 4 and mold core 2 (Block 302), the mold core 2 and cover 4 are aligned and closed (Block 304) and a first plastic material injected on to the back side of the decorative layer 1 to form a backing layer 3 (Block 306). Upon solidifying, the decorative composite formed of decorative layer 1 and backing layer 3 is removed from the molds and placed into a second set of molds comprising core 2A and cover 4A (Block 308). Typically, the contoured projecting portion of the core 2A may be slightly smaller in dimension than that of core 2 to accommodate any shrinkage of the backing layer. Core 2A and cover 4A cooperate to define a second injection volume between the mold halves which is greater than the volume of the decorative composite (Block 310). A second plastic material, preferably clear, is injected into the space between the mold cover 4A and the composite layer outer surface to form a protective outer layer 5 (Block 312). Upon solidifying the outer layer 5, the appliqué 10 may be removed from the mold 2A, 4A and trimmed (Block 314). Alternatively, the outer layer 5 may be injected against the decorative layer first (at Block 306) and subsequently the backing layer may be injected in the second tool set (at Block 312).

A third method for alternatively forming an appliqué of the present invention is disclosed in U.S. Pat. No. 6,468,458, commonly assigned to the assignee of the present invention and included herein by reference. This method, as shown in FIG. 8, includes a two part mold system wherein one of the mold parts is moveable (Block 400) and includes mold covers having contoured, preferably, cavity portions and the other of the mold parts is stationary and may include a mold core having a similar contoured surface spaced from the cover. The mold covers and core cooperate to form different injection volumes (Block 402, Block 404) to accommodate injecting a first plastic behind a relatively thin decorative layer using a first mold cover and first mold core (Block 406), and then aligning a second mold cover which provides a larger cavity area with the first mold core (Block 410) including the decorative composite to accommodate the subsequent injection of an outer layer (Block 410). Upon solidification the finished appliqué' is removed (Block 412). The moveable mold parts allow rotation of the mold covers, in this case, to align with the mold core to allow overshooting of the clear layer. This is described schematically in FIG. 8. Alternatively, the outer layer may be formed first in the cavity portion of a mold cover and subsequently that cover containing the decorative composite comprising the decorative layer and outer layer is aligned with a second mold core having a smaller contoured profile to allow the backing layer to be formed between the composite layer and the smaller contoured profile. Further, either of the mold parts, cores or covers, may be attached to either of the movable or stationary mold platens. Preferably, the moveable mold part is carried on a rotary platen that allows the moveable mold part to rotate and align with the stationary mold parts. The moveable mold part carries the composite laminate from station to station and the stationary mold part has a profile that allows space for the injection of the subsequent layer to form the finished appliqué.

In one exemplary embodiment, the relatively thin decorative layer may comprise paper on which a pattern or decoration has been printed, preferably by screen printing, rotogravure or using an inkjet printer. The paper may sheets having a basis weight for 500 sheets of 13 to 200 lbs. More specifically, the paper may be book paper having a basis weight of 30-120 lbs. (for 500 sheets, 25 inches by 38 inches, and having a corresponding grammage of 44-178 grams per square meter, and corresponding thickness of 0.0032-0.0078 inches), bond paper having a basis weight of 13-40 lbs. (for 500 sheets, 17 inches by 22 inches, and having a corresponding grammage of 49-151 grams per square meter, and corresponding thickness of 0.0032-0.0073 inches), cover paper having a basis weight of 50-160 lbs. (for 500 sheets, 20 inches by 26 inches, and having a corresponding grammage of 135-433 grams per square meter, and corresponding thickness of 0.0068-0.0185 inches), index paper having a basis weight of 90-220 lbs. (for 500 sheets 25.5 inches by 30.5 inches and having a corresponding grammage of 163-398 grams per square meter, and corresponding thickness of 0.0074-0.0178 inches) or TAG paper having a basis weight of 100-500 lbs. (for 500 sheets 24 inches by 36 inches and having a corresponding grammage of 163-488 grams per square meter, and corresponding thickness of 0.0074-0.0225 inches). Paper may also be referred to by point, wherein a point equals 0.001 inch in thickness of the sheet, and may range from 3-22.5.

By “paper” it is understood to mean a material made primarily of cellulose pulp, which has been processed into flexible sheets or rolls by deposition from an aqueous suspension.

The decoration of the paper may include printing in the form of words, symbols, graphics, logos, icons and other markings which enhances the appearance of the paper surface.

Once decorated the paper may be formed to a shape complementing a surface of the injection mold in which it will be encapsulated with one or more polymer resins. The process for forming the paper, see FIG. 9, to shape may include exposing the printed paper to a source of steam, at 502, for instance for a period of time of about 1-10 seconds, preferably 3-5 seconds, followed by placing the steamed paper into a compression mold, at 504, heated to 160-200° F., preferably 175° F., and, at 506, forcing relatively dry air through the mold to reduce the moisture level to about 5%. It is also contemplated that the paper may be heated to a controlled humidity and temperature in an atmospherically controlled enclosure and stored therein ready for use. The compression mold may have a cavity shape complementing a surface of the injection mold in which the formed paper may subsequently be encapsulated and may include a plurality of holes through the mold for the relatively dry air to be forced through.

This may then be followed by placing, 508, the formed paper in the injection mold and forming a clear front side or opaque back side layer on the paper. This may then be followed by forming a clear or opaque layer on the remaining outer surface of the paper such that the paper is substantially encapsulated in plastic and forming a decorative appliqué or trim panel according to FIGS. 6-8. The process of preparing the paper for the injection molding process is shown in FIG. 9 with the appropriate reference numbers above referring to the steps denoted therein.

In a still further exemplary embodiment, the printing and forming to shape of a paper substrate having a basis weight between 13-200 lbs., including all values therein in 1 lb. increments, or 3-22.5 points (thickness), including all values therein in 0.5 point increments, may be integrated directly into the forming of an interior trim component as part of a continuous in-line process flow. This may provide additional efficiencies in material and labor costs, and allow for an in-line and continuous processing wherein different product options or designs may be readily customized on the surface of the paper without having to build a significant inventory.

This in-line process may be accomplished using an inkjet printer and printing an image of a pattern, graphics, logos, icons, etc. directly onto a sheet of paper that will form a portion of the interior trim component or appliqué.

Direct inkjet printing may be accomplished directly adjacent a plastic injection molding press as described in FIG. 10 to feed sheets of printed paper to a forming station and then to the molding press on a one-for-one basis for integration into an interior trim component or appliqué, thus reducing inventory, floor space, emissions, cost, etc. In other words, the direct printing process and forming of the paper to shape may be integrated directly into the production line flow for manufacturing interior trim components and appliques'. That is, the timing for the production of the paper printing and forming to shape may be regulated to match the timing for the molding production of a given trim panel.

As described in FIG. 10 at 600, an inkjet printer may be located directly adjacent a molding press for an interior trim component or appliqué. At 602, the inkjet printer may receive sheets of a paper having a basis weight of 13 to 200 pounds or paper of 3-22.5 points in thickness. The surface of the paper may be treated with a coating to improve the compatibility with inks to be used to decorate the surface. The sheets may be advanced through the printer and droplets of ink deposited 604 by printheads in a controlled pattern to create an image of, for instance, a pattern or graphics, logos, icons, etc. Generally, the ink used will be a relatively fast drying ink having a primarily a solvent base or a curable ink.

Once the ink has been deposited it may be dried 606 (by the application of heat or other energy (UV, RF, IR) by the polymerization (cross-linking) of the ink, or by using heated paper fed to the printer). The sheet may be expelled from the printer, trimmed to shape and exposed to a source of steam 608 for a period of about 1-10 seconds, preferably 3-5 seconds. The paper may next 610 be placed into a closed porous mold heated to about 160-200° F. and dry air forced through the mold to dry the formed paper to a moisture content of about 5%. This may be followed by any of the processes described in FIGS. 6-8 to integrate the formed paper as a decorative layer into an interior trim panel or appliqué by molding one or more thermoplastic polymers on both sides of the paper.

Example 1

A thin wood veneer from Kimpara & Co., LTD. of Japan about 0.5 mm. in thickness was placed between the core and cover of an injection mold for an instrument panel appliqué such as shown in FIG. 1.

A first plastic material, 5135 polypropylene from Huntsman, LLC was injected behind the wood veneer layer to conform the layer to the shape of a contoured cavity area in the mold cover and fill out the cavity space to form a backing layer. After solidifying the backing layer the core portion of the mold set was retracted 1.5 mm with the backing layer and decorative layer composite remaining tightly affixed to the mold core. The resulting cavity space formed by the retraction of the core from the cover was filled with a second polymer material, V825 poly(methylmethacrylate) from the Atoglas Division of Atofina, the chemical branch of TOTAL. Upon cooling and demolding the appliqué, a wood grained molding having a luxurious appearance was obtained.

Example 2

Using the same molding set up as in Example 1, a section of coarsely woven fabric, a circular knit, WF0023 from Collins and Aikman Products Co. was positioned between the mold core and mold cover. TOPAS® 6015S-04, a cyclic olefin copolymer from Ticona, was injected behind the fabric to shape it to the contoured cavity space in the mold cover and back the fabric with clear polymer. Upon cooling, the mold core was retracted along with the combined fabric and backing layer and a second layer of cyclic olefin copolymer was injected into the open space, thus forming a protective top layer on the fabric. Upon cooling and demolding, a unique appearing appliqué was formed having an open weave fabric appearance buried deep in a clear layer

INDUSTRIAL APPLICABILITY

Thus, a thin walled decorative appliqué which may function as a decorative or protective surface or edging may be produced using an efficient molding process whereby a thin decorative layer is shaped by injecting a first plastic material, preferably as a backing layer, behind the decorative layer, and subsequently a second plastic material, preferably a clear polymer, is injected on the opposite side, preferably the front side of the decorative layer, to form an appliqué or trim panel. Three preferred arrangements of mold alignment are disclosed, although other arrangements may be possible.

The appliqué or trim component formed by these methods is distinguished by a wide variety of relatively thin decorative materials that may comprise the decorative layer, by additives in the form of tints, pigments and flakes that may be used in the injection molded layers to emphasize the decorative layer, by the use of, preferably, a clear polymer as the outer layer of the appliqué which provides a unique depth of image which further emphasizes the appearance of the underlying decorative layer, and by the forming of the thin decorative layer by the injection of the first plastic material.

Variations and modifications are possible without departing from the scope and spirit of the present invention as defined by the appended claims. 

1. A method for manufacturing an appliqué or trim panel having a decorative layer, a backing layer and an outer layer, comprising the steps of: (a) providing a mold core and a mold cover which cooperate to form a cavity space wherein said core and cover are aligned along one or more shearing edges; (b) providing a sheet of paper and forming said sheet to the shape of at least a portion of said cavity space, said sheet of paper having a front side and a back side and including an image printed on said top surface; (c) placing said formed sheet of paper in said cavity space; (d) aligning said mold core and said mold cover to form a first injection volume; (e) injecting a first polymer against the backside of said formed sheet of paper to substantially conform said formed sheet of paper against the cover side of said first injection volume thereby forming a decorative paper composite comprising a backing layer at least partially formed behind said formed sheet of paper; (f) solidifying said backing layer; (g) retracting said core and said decorative paper composite from said mold cover along said one or more shear edges by an amount related to the thickness of said outer layer thereby forming a second injection volume; (h) injecting a second polymer into said second injection volume against the front side of said decorative paper composite to form an outer layer; and (i) solidifying said second polymer to form said molded appliqué or trim panel, wherein said second polymer is a clear plastic and wherein said sheet of paper has a basis weight in the range of 13-200 lbs. and/or a thickness in the range of 0.003-0.0225 inches and includes a printed image on said top surface.
 2. The method of claim 1 wherein said sheet of paper has a moisture content of less than about 5% at step (e).
 3. The method of claim 1 wherein said clear plastic comprises any one of polycarbonate, poly(methyl methacrylate), thermoplastic urethane, polyester, copolyester alloy, cyclic olefin copolymer, poly-4-methyl-1-pentene, polysulphone, allyl diglycol carbonate, allyl ester, styrene-acrylonitrile, polystyrene, polyvinyl chloride and blends, alloys and combinations thereof.
 4. The method of claim 1 wherein said sheet of paper includes a wood grain pattern.
 5. The method of claim 1 wherein one or more of said first or said second polymers includes one or more pigments, tints, colored dyes, metallic flakes or light reflective particles blended therein.
 6. The method of claim 1 wherein said forming of said sheet to shape comprises; (a) exposing said sheet to a source of steam, (b) providing a compression mold having a plurality of holes therethrough, (c) heating said mold to a temperature in the range of 160-200° F., (d) placing said sheet into said mold and (e) forcing relatively dry air through said plurality of holes and through said sheet to reduce the moisture content of said sheet to less than 5% by weight.
 7. A method for manufacturing an appliqué or trim panel having a decorative layer, a backing layer and an outer layer, comprising the steps of: (a) providing a mold core and a mold cover which cooperate to form a cavity space wherein said core and cover are aligned along one or more shearing edges; (b) providing a sheet of paper and forming said sheet to the shape of at least a portion of said cavity space, said sheet of paper having a front side and a back side and including an image printed on said top surface; (c) placing said formed sheet in said cavity space; (d) aligning said mold core and said mold cover to form a first injection volume; (e) injecting a first polymer against the front side of said formed sheet of paper to substantially conform said formed sheet of paper against the core side of said first injection volume, thereby forming a decorative paper composite comprising an outer layer overlying said formed sheet of paper; (f) solidifying said outer layer; (g) retracting said core along said one or more shear edges from said mold cover and said decorative composite by an amount equal to the thickness of said backing layer, thereby forming a second injection volume; (h) injecting a second polymer into said second injection volume against the backside of said decorative paper composite layer to form a backing layer; and (i) solidifying said second polymer to form a molded appliqué or trim panel, wherein said first polymer is a clear plastic and wherein said sheet of paper has a basis weight in the range of 13-200 lbs. and/or a thickness in the range of 0.003-0.0225 inches.
 8. The method of claim 7 wherein said forming of said sheet to shape comprises; (a) exposing said sheet to a source of steam, (b) providing a compression mold having a plurality of holes therethrough, (c) heating said mold to a temperature in the range of 160-200° F., (d) placing said sheet into said mold and (e) forcing relatively dry air through said plurality of holes and through said sheet to reduce the moisture content of said sheet to less than 5% by weight.
 9. The method of claim 7 wherein said clear plastic comprises any one of polycarbonate, poly(methyl methacrylate), thermoplastic urethane, polyester, copolyester alloy, cyclic olefin copolymer, poly-4-methyl-1-pentene, polysulphone, allyl diglycol carbonate, allyl ester, styrene-acrylonitrile, polystyrene, polyvinyl chloride and blends, alloys and combinations thereof.
 10. The method of claim 7 wherein one or more of said first or said second polymers includes one or more pigments, tints, colored dyes, metallic flakes or light reflective particles blended therein.
 11. A method for manufacturing an appliqué having a decorative layer, a backing layer and an outer layer, comprising the steps of: (a) providing a mold core and mold cover which cooperate to form a cavity space; (b) providing a sheet of paper and forming said sheet to the shape of at least a portion of said cavity space, said sheet of paper having a front side and a back side and including an image printed on said top surface; (c) placing said formed sheet of paper in said cavity space; (d) aligning said mold core and said mold cover to form a first injection volume; (e) injecting a first polymer against the back side of said decorative layer to substantially conform said formed sheet of paper against the cover side of said first injection volume thereby forming a decorative paper composite comprising a backing layer at least partially formed behind said formed sheet of paper; (f) solidifying said backing layer; (g) retracting said core from said cover and removing said decorative paper composite; (h) providing a second mold core and second mold cover which cooperate to form a second cavity space; (i) placing said decorative paper composite upon said second mold core; (j) aligning said second mold cover and second mold core including said decorative paper composite to form a second injection volume; (k) injecting a second polymer into said second injection volume against the front side of said decorative paper composite to form an outer layer; and (l) solidifying said second polymer to form a molded appliqué or trim panel, wherein said second polymer is a clear plastic and wherein said sheet of paper has a basis weight in the range of 13-200 lbs. and/or a thickness in the range of 0.003-0.0225 inches.
 12. The method of claim 11 wherein said forming of said sheet to shape comprises; (a) exposing said sheet to a source of steam, (b) providing a compression mold having a plurality of holes therethrough, (c) heating said mold to a temperature in the range of 160-200° F., (d) placing said sheet into said mold and (e) forcing relatively dry air through said plurality of holes and through said sheet to reduce the moisture content of said sheet to less than 5% by weight.
 13. The method of claim 11 wherein said clear plastic comprises any one of polycarbonate, poly(methyl methacrylate), thermoplastic urethane, polyester, copolyester alloy, cyclic olefin copolymer, poly-4-methyl-1-pentene, polysulphone, allyl diglycol carbonate, allyl ester, styrene-acrylonitrile, polystyrene, polyvinyl chloride and blends, alloys and combinations thereof.
 14. A method for manufacturing a multi-layer composite product of injection molded plastic comprising: (a) providing a moveable mold part comprising at least a first mold core; (b) providing a stationary mold part comprising at least a first mold cover including a first cavity and a second mold cover including a second mold cavity, the second cavity of greater volume than the first cavity; (c) providing a sheet of paper and forming said sheet to the shape of at least a portion of said first cavity, said sheet of paper having a front side and a back side and including an image printed on said top surface; (d) placing said formed sheet of paper into said first cavity and aligning the first mold cover with the first mold core to form a first injection volume; (e) injecting a first polymeric material into said first injection volume behind said formed sheet of paper and solidifying said first polymeric material to form a decorative paper composite; (f) sequentially moving said first mold core including said decorative paper composite with respect to said stationary mold part to selectively align said first mold core including said decorative paper composite with said second mold cover, said second mold cover and said first mold core including said decorative paper composite, forming a second injection volume; (g) injecting a second polymeric material into the second injection volume formed between said decorative paper composite and said second mold cover to form an outer layer, wherein at least one of said first polymeric material and said second polymeric material comprise a clear plastic; and (h) solidifying said second polymeric material to form a composite product, wherein said sheet of paper has a basis weight in the range of 13-200 lbs. and/or a thickness in the range of 0.003-0.0225 inches.
 15. The method of claim 14 wherein said stationary mold part comprises a first mold core and said moveable mold part comprises one or more mold covers.
 16. The method of claim 14 wherein said forming of said sheet to shape comprises; (a) exposing said sheet to a source of steam, (b) providing a compression mold having a plurality of holes therethrough, (c) heating said mold to a temperature in the range of 160-200° F., (d) placing said sheet into said mold and (e) forcing relatively dry air through said plurality of holes and through said sheet to reduce the moisture content of said sheet to less than 5% by weight.
 17. A method for manufacturing a multi-layer composite product of injection molded plastic comprising: (a) providing a moveable mold part comprising at least a first mold cover including a first cavity; (b) providing a stationary mold part comprising at least a first mold core including a first projecting profile and a second mold core including a second projecting profile, the second profile smaller than the first profile; (c) providing a sheet of paper and forming said sheet to the shape of at least a portion of said first mold core, said sheet of paper having a front side and a back side and including an image printed on said top surface; (d) placing said formed sheet of paper into said first cavity and aligning the first mold cover with the first mold core to form a first injection volume; (e) injecting a first polymeric material into said first injection volume between said formed sheet of paper and said first mold cover and solidifying said first polymeric material to form a decorative paper composite; (f) sequentially moving said first mold cover including said decorative paper composite with respect to said stationary mold part to selectively align said first mold cover including said decorative paper composite with said second mold core, said second mold core and said first mold cover including said decorative paper composite forming a second injection volume; (g) injecting a second polymeric material into the second injection volume formed between said decorative composite and said second mold core to form a backing layer, wherein at least one of said first polymeric material and said second polymeric material comprise a clear plastic; and (h) solidifying said second polymeric material to form a composite product, wherein said sheet of paper has a basis weight in the range of 13-200 lbs. and/or a thickness in the range of 0.003-0.0225 inches.
 18. The method of claim 17 wherein the stationary mold part comprises a first mold cover and the moveable mold part comprises one or more mold cores.
 19. The method of claim 17 wherein said forming of said sheet to shape comprises; (a) exposing said sheet to a source of steam, (b) providing a compression mold having a plurality of holes therethrough, (c) heating said mold to a temperature in the range of 160-200° F., (d) placing said sheet into said mold and (e) forcing relatively dry air through said plurality of holes and through said sheet to reduce the moisture content of said sheet to less than 5% by weight.
 20. An appliqué' or trim panel for decorating or protecting a surface, comprising; a decorative paper layer including a top surface and a back surface and including a printed image printed on said top surface; an injection molded plastic backing layer on said back surface; and an injection molded plastic outer layer on said top surface, wherein said outer layer comprises a clear plastic and wherein said paper layer has a basis weight in the range of 13-2001 lbs. and/or a thickness in the range of 0.003-0.0225 inches and includes a printed image on said top surface.
 21. The appliqué or trim panel of claim 20 wherein said clear plastic comprises any one of polycarbonate, poly(methyl methacrylate), thermoplastic urethane, polyester, copolyester alloy, cyclic olefin copolymer, poly-4-methyl-1-pentene, polysulphone, allyl diglycol carbonate, allyl ester, styrene-acrylonitrile, polystyrene, polyvinyl chloride and blends, alloys and combinations thereof.
 22. The appliqué or trim panel of claim 20 wherein said paper layer includes a wood grain pattern.
 23. A method for manufacturing an appliqué or trim panel having a decorative layer, a backing layer and an outer layer, comprising the steps of: (a) providing a mold core and mold cover which cooperate to form a cavity space; (b) providing a sheet of paper and forming said sheet to the shape of at least a portion of said cavity space, said sheet of paper having a front side and a back side and including an image printed on said top surface; (c) placing said formed sheet of paper in said cavity space; (d) aligning said mold core and said mold cover to form a first injection volume; (e) injecting a first polymer against the front side of said formed sheet of paper to substantially conform said formed sheet of paper against the core side of said first injection volume thereby forming a decorative paper composite comprising an outer layer at least partially formed in front of said decorative layer; (f) solidifying said outer layer; (g) retracting said core from said cover and removing said decorative paper composite; (h) providing a second mold core and second mold cover which cooperate to form a second cavity space; (i) placing said decorative paper composite upon said second mold cover; (j) aligning said second mold cover and second mold core including said decorative paper composite to form a second injection volume; (k) injecting a second polymer into said second injection volume against the back side of said decorative paper composite to form said backing layer; and (l) solidifying said second polymer to form a molded appliqué or trim panel, wherein said first polymer comprises a clear plastic and wherein said sheet of paper has a basis weight in the range of 13-2001 lbs. and/or a thickness in the range of 0.003-0.0225 inches.
 24. The method of claim 23 wherein said forming of said sheet to shape comprises; (a) exposing said sheet to a source of steam, (b) providing a compression mold having a plurality of holes therethrough, (c) heating said mold to a temperature in the range of 160-200° F., (d) placing said sheet into said mold and (e) forcing relatively dry air through said plurality of holes and through said sheet to reduce the moisture content of said sheet to less than 5% by weight.
 25. A method for manufacturing an appliqué or trim panel having a decorative layer, a backing layer and an outer layer, comprising the steps of: (a) providing a mold core and a mold cover which cooperate to form a cavity space wherein said core and cover are aligned along one or more shearing edges; (b) providing a sheet of paper and forming said sheet to the shape of at least a portion of said cavity space, said sheet of paper having a front side and a back side and including an image printed on said top surface; (c) placing said formed sheet of paper against said mold cover overlying at least a portion of said cavity space; (d) aligning said mold core and said mold cover to form an injection volume; (e) injecting a first polymer against the backside of said formed sheet of paper and injecting a second polymer against the front side of said formed sheet of paper; and (f) solidifying said first and said second polymers to form a molded appliqué or trim panel, wherein said second polymer comprises a clear plastic and wherein said sheet of paper has a basis weight in the range of 13-2001 lbs. and/or a thickness in the range of 0.003-0.0225 inches.
 26. The method of claim 25 wherein said forming of said sheet to shape comprises; (a) exposing said sheet to a source of steam, (b) providing a compression mold having a plurality of holes therethrough, (c) heating said mold to a temperature in the range of 160-200° F., (d) placing said sheet into said mold and (e) forcing relatively dry air through said plurality of holes and through said sheet to reduce the moisture content of said sheet to less than 5% by weight.
 27. A method for the in-line production of an appliqué or trim component having a decorative layer, a molded backing layer and a molded outer layer, comprising the steps of: (a) providing an inkjet printer adjacent to a plastic molding press; (b) providing a sheet of paper having a front side and a back side to said printer, wherein said sheet of paper has a basis weight in the range of 13-2001 lbs. and/or a thickness in the range of 0.003-0.0225 inches; (c) advancing said sheet through said printer whereby droplets of ink are deposited from one or more printheads in said printer onto said front surface of said sheet, said droplets deposited in such a pattern so as to create a printed image; (d) drying said ink droplets; (e) expelling said sheet from said printer, (f) trimming said sheet to shape; (g) providing a mold core and a mold cover which cooperate to form a cavity space wherein said core and cover are aligned along one or more shearing edges; (h) directly forming said sheet to the shape of at least a portion of said cavity space, said sheet of paper including an image printed on said top surface; (c) placing said formed sheet of paper in said cavity space; (d) aligning said mold core and said mold cover to form a first injection volume; (e) injecting a first polymer against the backside of said formed sheet of paper to substantially conform said formed sheet of paper against the cover side of said first injection volume thereby forming a decorative paper composite comprising a backing layer at least partially formed behind said formed sheet of paper; (f) solidifying said backing layer; (g) retracting said core and said decorative paper composite from said mold cover along said one or more shear edges by an amount related to the thickness of said outer layer thereby forming a second injection volume; (h) injecting a second polymer into said second injection volume against the front side of said decorative paper composite to form an outer layer; and (i) solidifying said second polymer to form said molded appliqué or trim panel.
 28. The method of claim 27 wherein said forming of said sheet to shape comprises; (a) exposing said sheet to a source of steam, (b) providing a compression mold having a plurality of holes therethrough, (c) heating said mold to a temperature in the range of 160-200° F., (d) placing said sheet into said mold and (e) forcing relatively dry air through said plurality of holes and through said sheet to reduce the moisture content of said sheet to less than 5% by weight. 